Evolution of sex determination and heterogamety changes in section Otites of the genus Silene

Abstract Switches in heterogamety are known to occur in both animals and plants. Although plant sex determination systems probably often evolved more recently than those in several well-studied animals, including mammals, and have had less time for switches to occur, we previously detected a switch in heterogamety in the plant genus Silene: section Otites has both female and male heterogamety, whereas S. latifolia and its close relatives, in a different section of the genus, Melandrium (subgenus Behenantha), all have male heterogamety. Here we analyse the evolution of sex chromosomes in section Otites, which is estimated to have evolved only about 0.55 MYA. Our study confirms female heterogamety in S. otites and newly reveals female heterogamety in S. borysthenica. Sequence analyses and genetic mapping show that the sex-linked regions of these two species are the same, but the region in S. colpophylla, a close relative with male heterogamety, is different. The sex chromosome pairs of S. colpophylla and S. otites each correspond to an autosome of the other species, and both differ from the XY pair in S. latifolia. Silene section Otites species are suitable for detailed studies of the events involved in such changes, and our phylogenetic analysis suggests a possible change from female to male heterogamety within this section. Our analyses suggest a possibility that has so far not been considered, change in heterogamety through hybridization, in which a male-determining chromosome from one species is introgressed into another one, and over-rides its previous sex-determining system

Characterization of cetacean Numt and its application into cetacean phylogeny

The translocations of mitochondrial DNA into chromosomal DNA (nuclear mitochondrial DNA, Numt) are ubiquitous in eukaryotes including yeasts, plants, and animals. The features of Numt and the recent sequencing technology can facilitate an expanded application of Numt into a valuable phylogenetic marker for unresolved taxa. To date, the phylogeny of extant cetaceans has been studied by a variety of morphological and molecular data and still has long attracted attention. Here, the Numts of cattle, two baleen whale and four toothed whales were detected by BLAST-search of the mitochondrial sequences of each species against its corresponding nuclear genome and we investigated the characteristics of cetacean Numt and revisited the phylogeny and evolution of cetartiodactyl using Numts. The content and distribution of Numt length showed similar patterns among six cetacean genomes. Under-representation of D-loop region-derived Numts and different abundance of Numt across D-loop sub-domains were observed in cetacean Numts except sperm whale. Examination of Numt location in cetacean nuclear genomes showed that some of orthologous Numts were integrated into exons, introns, and pseudogenes, suggesting that cetacean Numts may contribute to cetacean biology and evolution. Our phylogenetic study with cetacean Numt based on the maximum likelihood method corresponded to the study from other phylogenetic markers. © 2015, The Genetics Society of Korea and Springer-Science and Mediaclose